Patent application number | Description | Published |
20090233192 | METHOD FOR FINISHING SURFACE OF PRELIMINARY POLISHED GLASS SUBSTRATE - The invention is to provide a method in which waviness generated on a glass substrate surface during pre-polishing is removed, thereby finishing the glass substrate so as to have a surface excellent in flatness. The invention relates to a method for finishing a pre-polished glass substrate surface using any one of processing methods selected from the group consisting of ion beam etching, gas cluster ion beam etching and plasma etching, the glass substrate being made of quartz glass that contains a dopant and comprises SiO | 09-17-2009 |
20100080961 | METHOD OF PROCESSING GLASS SUBSTRATE SURFACE - The present invention is to provide a method for processing the whole of a glass substrate surface so as to give a surface excellent in flatness and surface roughness. The present invention provides a method of processing a glass substrate surface using a processing technique selected from the group consisting of ion-beam etching, gas cluster ion-beam etching, plasma etching, and nano-ablation, wherein a frame element satisfying the following (1) and (2) is arranged along the periphery of the glass substrate before the glass substrate surface is processed: (1) the difference between the height of the frame element and the height of the glass substrate surface is 1 mm or smaller; and (2) the frame element has a width which is not smaller than one-half the beam diameter or laser light diameter to be used in the processing technique. | 04-01-2010 |
20100101940 | METHOD FOR REMOVING FOREIGN MATTER FROM GLASS SUBSTRATE SURFACE AND METHOD FOR PROCESSING GLASS SUBSTRATE SURFACE - An object of the invention is to provide a method for removing foreign matter from a glass substrate surface to be finish-processed by a method accompanied with beam irradiation or laser light irradiation on the glass substrate surface. The present invention relates to a method for removing foreign matter from a glass substrate surface, which includes subjecting the glass substrate surface to gas cluster ion beam etching at an accelerating voltage of from 5 to 15 keV. | 04-29-2010 |
20100234205 | TiO2-containing quartz glass substrate - An object of the present invention is to provide a TiO | 09-16-2010 |
20100304282 | METHOD FOR FINISHING SURFACE OF PRELIMINARY POLISHED GLASS SUBSTRATE - A glass substrate obtained by a method including measuring flatness of a glass substrate surface and measuring concentration distribution of dopant in the substrate. Processing conditions of the surface are set up for each site of the substrate based on results from the measuring the flatness and the measuring the distribution, and the finishing is carried out while keeping an angle formed by normal line of the substrate and incident beam onto the surface at from 30 to 89°. The surface is subjected to second finishing for improving an RMS in a high spatial frequency region. The surface after the second finishing satisfies the requirements: an RMS slope in the region that 5 μm<λ(spatial wavelength)<1 mm is not more than 0.5 mRad and an RMS slope in the region that 250 nm<λ(spatial wavelength)<5 μm is not more than 0.6 mRad. | 12-02-2010 |
20110089612 | TIO2-CONTAINING QUARTZ GLASS SUBSTRATE - An object of the present invention is to provide a TiO | 04-21-2011 |
20110244171 | LOW EXPANSION GLASS SUBSTRATE FOR REFLECTION TYPE MASK AND METHOD FOR PROCESSING SAME - The present invention relates to a low expansion glass substrate which serves as a substrate of a reflective mask used in a lithography step of semiconductor production steps, wherein two side surfaces positioned to face each other among side surfaces formed along a periphery of the low expansion glass substrate, each have a flatness of 25 μm or less. | 10-06-2011 |
20110281069 | METHOD FOR FINISHING SURFACE OF PRELIMINARY POLISHED GLASS SUBSTRATE - A glass substrate obtained by a method including measuring flatness of a glass substrate surface and measuring concentration distribution of dopant in the substrate. Processing conditions of the surface are set up for each site of the substrate based on results from the measuring the flatness and the measuring the distribution, and the finishing is carried out while keeping an angle formed by normal line of the substrate and incident beam onto the surface at from 30 to 89°. The surface is subjected to second finishing for improving an RMS in a high spatial frequency region. The surface after the second finishing satisfies the requirements: an RMS slope in the region that 5 μm<λ (spatial wavelength)<1 mm is not more than 0.5 mRad and an RMS slope in the region that 250 nm<λ (spatial wavelength)<5 μm is not more than 0.6 mRad. | 11-17-2011 |
Patent application number | Description | Published |
20090029574 | Board Connector - A board connector ( | 01-29-2009 |
20110003518 | TERMINAL CONNECTOR AND ELECTRIC WIRE WITH TERMINAL CONNECTOR - Rims of an opening of each recess form a parallelogram, and comprise two first opening rims that that are parallel to a first direction and two second opening rims that are parallel to a second direction. The first opening rims of each of the recesses that are aligned along the first direction are arranged on a straight line along the first direction. The second opening rims of each of the recesses that are aligned along the second direction are arranged on a straight line along the second direction. The recesses are formed by pressing a wire barrel with a die where a plurality of protruding parts are formed so as to correspond to recesses. | 01-06-2011 |
20110009014 | TERMINAL CONNECTOR AND ELECTRIC WIRE WITH TERMINAL CONNECTOR - A plurality of recesses are formed on a surface of a wire barrel where an electric wire is provided. In a state before the electric wire is crimped onto the wire barrel, at least one of sides comprising rims of an opening of each recess of a quadrangular shape is a crossing side crossing at an angle of from 85 degrees to 95 degrees to an extending direction. In a state before the electric wire is crimped onto the wire barrel | 01-13-2011 |
20110117769 | INSULATION DISPLACEMENT TERMINAL, SPLICING TERMINAL ASSEMBLY AND PRESS-CONTACT STRUCTURE FOR ELECTRIC CABLE - A terminal fitting ( | 05-19-2011 |
20110124247 | TERMINAL FITTING AND ELECTRICAL CABLE EQUIPPED WITH THE SAME - A terminal fitting | 05-26-2011 |
20120028494 | TERMINAL CONNECTOR AND ELECTRIC WIRE WITH TERMINAL CONNECTOR - An electric wire with a terminal connector includes an electric wire and a female terminal connector crimped onto a core wire exposed at the electric wire. A female terminal connector has a wire barrel having a surface to be applied to the core wire. The surface has a plurality of recesses formed therein. Each recess has a parallelogram-shaped opening edge. The opening edge of the recess includes a pair of first opening edges that are parallel to each other and a pair of second opening edges that are parallel to each other and different from the first opening edges. The recesses are spaced in the extending direction of the first opening edges and are spaced in the extending direction of the second opening edges. | 02-02-2012 |
20120228024 | WIRE HARNESS INCLUDING SHORT CIRCUIT AND PRODUCTION METHOD THEREFOR - A wire harness capable of forming a short circuit by use of a plurality of electric wires and a joint connector while being slenderized and reduced in weight. The wire harness includes a plurality of circuit modules each forming a short circuit. Each of the circuit modules, includes a plurality of electric wires, and a plurality of external-connection connectors, connected to respective first ends of the electric wires, and a joint connector, connected to respective second ends of the electric wires to short-circuit the electric wires. The electric wires constituting the circuit modules are bundled together so that the joint connector of each of the circuit modules is discretely disposed so as to be located in a vicinity of at least one of the external-connection connectors included in the circuit module, around which electric wires a binding tape is wound. | 09-13-2012 |
20130062117 | TERMINAL CONNECTOR AND ELECTRIC WIRE WITH TERMINAL CONNECTOR - An electric wire with a terminal connector includes an electric wire and a female terminal connector crimped onto a core wire exposed at the electric wire. A female terminal connector has a wire barrel having a surface to be applied to the core wire. The surface has a plurality of recesses formed therein. Each recess has an opening edge. The opening edge of the recess includes first opening edges that are parallel to each other. The first opening edges are arranged to overlap with each other in the extending direction of the electric wire so that the first opening edges are present over the entire length of all over the plurality of the recesses on the crimping portion in the extending direction of the electric wire. | 03-14-2013 |
20130062118 | Terminal Connector and Electric Wire with Terminal Connector - An electric wire with a terminal connector includes an electric wire and a female terminal connector crimped onto a core wire exposed at the electric wire. A female terminal connector has a wire barrel having a surface to be applied to the core wire. The surface has a plurality of recesses formed therein. Each recess has an opening edge. The opening edge of the recess includes first opening edges that are parallel to each other. The space between the recesses adjacent to each other in the extending direction of the first opening edge is set narrower than the space between the recesses adjacent to each other in the extending direction of the electric wire. | 03-14-2013 |
Patent application number | Description | Published |
20110318155 | Construction Machine, Method for Controlling Construction Machine, and Program for Causing Computer to Execute the Method - A construction machine includes: a working equipment; a manipulating unit that manipulates the working equipment; and a controller that controls the working equipment. The controller includes: a rolling compaction determining unit that determines whether or not the working equipment is under a rolling compaction operation for hardening earth and sand through reciprocation; and a command output regulating unit that controls the working equipment so that a motion speed of the working equipment does not exceed a predetermined maximum value when the rolling compaction determining unit determines that the working equipment is under the rolling compaction operation. | 12-29-2011 |
20110318157 | Construction Machine, Method for Controlling Construction Machine, and Program for Causing Computer to Execute the Method - A controller constituting a construction machine includes: a target value computing unit that generates a speed target value of a boom based on a lever manipulating signal; a target value correcting unit that corrects the speed target value; and a command signal output unit that outputs a command signal to a boom driving device based on the corrected speed target value. The target value correcting unit includes: a motion information acquiring unit that acquires motion information on a motion of an arm; a maximum value determining unit that determines based on the motion information a maximum correction value for reducing suppression of a floating motion by a floating motion suppressing unit as the motion of the arm becomes faster; and a correction value regulating unit that corrects the speed target value based on the maximum correction value. | 12-29-2011 |
20120004816 | Construction Machine, Method for Controlling Construction Machine, and Program for Causing Computer to Execute the Method - A controller of a construction machine includes a target command value computing unit generating a speed target command value for normal motion of a working equipment based on a manipulating signal, a target command value correcting unit correcting the command value, and a command signal output unit outputting a command signal to a driving device based on the corrected speed target command value. The target command value correcting unit includes a vibration suppressing unit generating a speed target command value for vibration suppression to suppress generation of vibrations in the working equipment based on the command value, a peak value recognizing unit recognizing a peak value of the command value based on the command value sequentially generated by the target command value computing unit, and a target command value compositing unit compositing the command values according to the peak value to correct the command value. | 01-05-2012 |